Method and system for providing a perpendicular magnetic recording head

1. A method for providing a magnetic recording transducer having a pole on an underlayer, the pole including at least one side, a bottom, and a top wider than the bottom, the method comprising: providing at least one side gap layer, the at least one side gap layer covering the at least one side and the top of the pole, a first portion of the at least one side gap layer covering a portion of the underlayer, a second portion of the at least one side gap layer covering the at least one side of the pole, the first portion being distinct from the second portion and not residing directly under the second portion of the at least one side gap layer; providing at least one sacrificial layer on the at least one side gap layer, the at least one sacrificial layer being wet etchable and covering the at least one side gap layer including the first portion of the side gap layer; planarizing the magnetic recording transducer after the at least one sacrificial layer is provided, a third portion of the at least one side gap layer being removed, a portion of the at least one sacrificial layer being removed to leave a remaining portion of the at least one sacrificial layer; providing a mask covering the pole and exposing at least part of the remaining portion of the at least one sacrificial layer after the step of planarizing the magnetic recording transducer; wet etching the at least one sacrificial layer to remove the remaining portion of the at least one sacrificial layer thereby exposing at least the first portion of the at least one side gap layer; and providing a wrap around shield after the remaining portion of the at least one sacrificial layer is removed.

2. The method of claim 1 wherein the step of providing the at least one sacrificial layer further includes: plating the at least one sacrificial layer.

3. The method of claim 2 wherein the step of plating the at least one sacrificial layer further includes: plating at least one of NiFe, CoFe, CoNiFe, Ni, Cu, and Fe.

4. The method of claim 1 further comprising: providing a write gap after the remaining portion of the at least one sacrificial layer is removed.

5. The method of claim 4 wherein the write gap is a metal write gap.

6. The method of claim 4 wherein the write gap is an insulator.

7. The method of claim 6 further comprising: providing a seed layer on the write gap, the seed layer being configured for the wrap around shield.

8. The method of claim 1 wherein the step of planarizing the magnetic transducer further includes: chemical mechanical planarizing the magnetic recording transducer; and exposing the top of the pole.

9. The method of claim 1 further comprising: providing a bevel in the top of the pole.

10. The method of claim 9 wherein the pole includes an air-bearing surface (ABS) region and wherein step of forming the bevel further includes: providing a mask distal to the ABS region; and removing a portion of the top of the pole proximate to the ABS region.

11. The method of claim 10 wherein the step of removing the portion of the top of the pole further includes: ion milling the portion of the top of the pole at a nonzero angle from normal to the top of the pole.

12. The method of claim 9 wherein the bevel is a trailing edge bevel.

13. A method for providing a magnetic recording transducer having a pole on an underlayer, the pole including at least one side, a bottom, and a top wider than the bottom, the method comprising: providing at least one side gap layer, the at least one side gap layer covering the at least one side and the top of the pole, a first portion of the at least one side gap layer covering a portion of the underlayer, a second portion of the at least one side gap layer covering the at least one side of the pole, the first portion being distinct from the second portion and not residing directly under the second portion of the at least one side gap layer; plating at least one sacrificial layer on the at least one side gap layer, the at least one sacrificial layer being wet etchable, covering the at least one side gap layer including the first portion of the at least one side gap layer, and including at least one of NiFe, CoFe, CoNiFe, Ni, Cu, and Fe; chemical mechanical planarizing the magnetic recording transducer, a third portion of the at least one side gap layer being removed, a portion of the at least one sacrificial layer being removed to leave a remaining portion of the at least one sacrificial layer; exposing at least a portion of the top of the pole; removing the portion of the top of the pole, thereby providing a bevel in the top of the pole; providing a mask covering the top of the pole and exposing the remaining portion of the at least one sacrificial layer after the step of removing the to portion of the pole; wet etching the at least one sacrificial layer without the pole being exposed to the wet etching to remove the sacrificial layer and expose at least the first portion of the at least one side gap layer; providing a write gap after the at least one sacrificial layer is removed, the write gap residing on the top of the pole and a portion of the at least one side gap layer; and providing a wrap around shield after the at least one sacrificial layer is removed.